TWI288563B - Method of audio data transmission and system thereof - Google Patents

Method of audio data transmission and system thereof Download PDF

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Publication number
TWI288563B
TWI288563B TW094138256A TW94138256A TWI288563B TW I288563 B TWI288563 B TW I288563B TW 094138256 A TW094138256 A TW 094138256A TW 94138256 A TW94138256 A TW 94138256A TW I288563 B TWI288563 B TW I288563B
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TW
Taiwan
Prior art keywords
hdmi
signal
sound
data
image
Prior art date
Application number
TW094138256A
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Chinese (zh)
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TW200620999A (en
Inventor
Andrew C Chang
Ching-Yeh Hsuan
Chih-Hao Hsiao
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Mediatek Inc
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Publication date
Priority to US11/009,795 priority Critical patent/US20060209880A1/en
Application filed by Mediatek Inc filed Critical Mediatek Inc
Publication of TW200620999A publication Critical patent/TW200620999A/en
Application granted granted Critical
Publication of TWI288563B publication Critical patent/TWI288563B/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N19/00Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
    • H04N19/85Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using pre-processing or post-processing specially adapted for video compression
    • H04N19/89Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using pre-processing or post-processing specially adapted for video compression involving methods or arrangements for detection of transmission errors at the decoder
    • H04N19/895Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using pre-processing or post-processing specially adapted for video compression involving methods or arrangements for detection of transmission errors at the decoder in combination with error concealment
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N21/00Selective content distribution, e.g. interactive television or video on demand [VOD]
    • H04N21/40Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
    • H04N21/43Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network, synchronizing decoder's clock; Client middleware
    • H04N21/436Interfacing a local distribution network, e.g. communicating with another STB or inside the home ; Interfacing an external card to be used in combination with the client device
    • H04N21/4363Adapting the video or multiplex stream to a specific local network, e.g. a IEEE 1394 or Bluetooth® network
    • H04N21/43632Adapting the video or multiplex stream to a specific local network, e.g. a IEEE 1394 or Bluetooth® network involving a wired protocol, e.g. IEEE 1394
    • H04N21/43635HDMI

Abstract

Methods and systems for transmitting audio data using HDMI. In an embodiment, a transmitter generates a self-generated video signal when retrieving only audio input signal from an audio source to replace a video input signal expected by the HDMI system. In another embodiment, a transmitter sets a flag when retrieving only an audio input signal, wherein the flag configures preamble transmitted in control periods to allow audio data to be transmitted to a receiver without incorporated with video data.

Description

1288563 IX. EMBODIMENT DESCRIPTION OF THE INVENTION The present invention relates to a High Definition Multimedia Interface (HDMI), and more particularly to a method for transmitting sound data without accompanying image data. The system is suitable for data that does not use HDMI and sound. [Prior Art] High Definition Multimedia Interface (HDMI), an industry-supported, uncompressed, and all-digital audio/image interface that provides a source-to-target interface, including video converters. (Set_t〇p B〇X), Digital Vide〇Disc (DVD) player, or Digital Home Video System (Digital Home Video System (D-VHS)), and the target includes digital TV (Digital Televisi) 〇n, dtv), projector, plasma panel, or liquid crystal display (LCD). HDMI combines sound and image information into the signal digital interface. The HDMI development is overseen by the HDMI Working Group, including Hitachi, philips, s〇ny, ThQms (m(ReA),

Toshiba, and Silicon Image. Digital Content Protection, LLC (a subsidiary of Intel)'s development of HDMI's High-bandwidth Digital Content Protection 'HDCP, which provides a secure audio/image interface to match content providers and system controls The security needs of the person.

As in the example shown in Fig. 1, the DVD player 12 is passed through the HDMI signal cable 13 to be connected to the DTV or the monitor 14. The DVD player 12 includes an MPEG decoder chip 112 and an HDMI transmitter chip 124. The HDMI transmitter chip 124 requires image data 161 and sound data 181 from the image source 16 and the sound source 18, respectively. The HDMI transmitter chip 124 receives decoded image data 123 & (e.g., 24-bit RGB) from the MPEG decoder chip 122 and decoded sound material 123b. The HDMI transmitter chip 124 encrypts the decoded shirt image material 123a and the decoded <5 horse sound data i23b in the hdcp encryption unit 1242. Encrypted JJDMI

The 0758-A30905TWF 1288563 data is output to the HDMI signal cable 13 and transmitted to the HDMI receiver 142 of the monitor 14. The HDMI receiver 142 includes a corresponding HDCP decryption unit 1422 for decrypting the received HDM1 data. The HDMI receiver 142 replies to the received HDMI data and outputs the restored image data 143a and sound data 143b. HDMI utilizes the core technology of the Digital Visual Interface (DVI). DVI is a 24-bit RGB interface that uses a transition to minimize differential signals (Transiti〇n

MinimizedDifferential Signaling, TMDS). TMDS is a signal technique that produces a sequence of transitions from the output data byte sequence and DC balance. In the long sequence of logic, T, φ and "0", the bits are selectively applied to maintain a particular DC bias signal. The DVI junction utilizes two different pairs of wires, each pair carrying a low voltage signal representing the red (r), green (G), and blue (B) signal components. The fourth pair of wires carries a halogen color signal. The 8-bit rgb signal sequence carries information at a rate higher than 1.65 Gbps and a total connection rate of 4.95 Gbps, with an effective rate of 3.96 Gbps. A 10-bit encoding architecture is used to minimize the transition at high data rates. HDMI performance is better than DVI performance. The HDMI specification allows for bandwidths above 5 Gbps and is even more compatible with technology extensions, such as current uncompressed HD movies, which require only 2.2 Gbps for multi-channel sound and video. DVI has the disadvantages that HDMI can solve. For example, DVI can't support digital sound data and digital color difference signals (YCbCr). Using the CEA-861 image on DTV, HDMI is compatible with the DVI of the prior art. However, the limitations of DVI make the DVI device connected to the HDMI device unable to provide image function. One of the important features of HDMI is the ability to carry digital multi-channel sound in addition to digital images. HDMI has the ability to support current high-quality image formats (72〇p, 1〇8〇i, and 1〇8〇p). It is also adaptable to support improved quality, such as 480p and ·576ρ, as well as support for standard enamel formats, such as the National Television System Committee (Nati〇nal Televisi〇n SyStem).

Committee' NTSC) or Phase Alternating Line (PAL). The HDMI specification provides 24-bit sound with a sampling rate higher than 192 Hz and more than 8 channels, and supports all current

0758-A30905TWF 1288563 Pulsed code modulation (Pulsec〇dem〇dulati〇n, pCM) sound type, including sound = and compressed sound 袼. HDMI provides a source-to-receiver connection or a receiver-to-discrete connection' and the connection is only transmitted through the n-line form. SUMMARY OF THE INVENTION The present invention provides a method and system for using a sorghum ship interface (η_

Defmdon Multimedia Interface, HDMI>, to transmit sound data. In particular, there is a method and method for transmitting sound data without accompanying image data. In the implementation office, if there is no image data, the HDMI transmission system receives the sound input signal and generates the self-generated image signal. The HDMI transmission system therefore uses the data island interval to transmit sound data and uses the image data interval to transmit the self-generated image signal. According to the HDMI specification, the sound must be transmitted and played along with the image. Therefore, the HDMI transmission system provides the self-generated image data, which replaces the input image data that the ship system and the system expect but lack. The sound data is transmitted in the data island interval in the parallel space from the interval or the vertical space. An example of a self-generated image material can be a static (still) surface, such as a logo or trademark. § In another embodiment, the HDMI transmission system receives the voice input signal and sets the flag if the image wheeling signal is not active. The HDMI# delivery system only transmits the data island interval and the j interval' and transmits the sound data using the data island interval. The rib catching system can also transmit the # number corresponding to the HDMI receiving state to turn off the monitor to save power. The above objects, features and advantages of the present invention will become more apparent in the light of the appended claims. [Embodiment] FIG. 2 is a block diagram showing an HDMI system including a plurality of sources and targets, an HDMI source 2 〇 indicating a device having an HDMI output, and an HDMI target pin indicating a device for HDMI input. As shown in Figure 2, the service age and connector have four pairs ^

0758-A30905TWF 7 1288563, the signal line 'Transition Minimized Differential Signaling (TMDS) clock channel 233, to carry the timing information of the image data (image pixel 'pulse') There are three TMDS data channels 230 to 232 that carry image data 2n, sound data 212, and auxiliary materials. The supporting materials here include any information other than the time series information of the image data, the sound data, and the image data. For example, the time information of the sound data, the text data, the control signal of the power source, and the monitor control information (such as the sound size, brightness) , or power supply, and non-sound or image control information. HDMI also supports a Display Data Channel (DDC) configuration. # Between a single source and a single target, it is used as a match for playback-related settings and status messages. Optional supports a consumer electronics control (C〇nsumer Elec_ics Control 'CEC) protocol channel to provide high-level control between multiple audiovisual products. Figure 235 in Figure 2 indicates CEC connectivity. The image elementary clock is transmitted through the TMDS clock channel 233 and is used by the receiver 24 as a frequency reference for the data reply on the other three TMDS data channels 230-233. In order to transmit sound data 212 and auxiliary poor materials through TMDS data channels 230 to 232, HDMI uses a packet architecture. As mentioned earlier, data can be protected for higher reliability. • HDMI data transmission uses a MDS-encoded TMDS link (TM〇s丨^^), where the TMDS-linked data interval includes the image data interval (vid〇, data island period, or control interval) (c〇咖丨peri〇d). Figure 3 shows an example of a 720x480P video frame 3 (^ TMDS data interval. The main animation of the active image column is transmitted in the image data interval, its towel, The image data interval is marked with the pattern C in Figure 3. In the data island interval, the sound data and auxiliary materials are transmitted in consecutive packets, wherein the Beiji Island section is marked with A. When there is no image data, sound data, or lion data. When it needs to be transmitted, between any other two intervals, the control interval marked with pattern B is used. ρι denotes 138 pixels, μ denotes an active element, p3 denotes a total pixel, and li denotes 45 columns ( Line), L2 means the complete active column, L3 means a total of 525 歹

0758-A30905TWF 1288563 value, ., 1 j kg τ ☆ The main data transmitted by the TMDS link is image data. Image data Non-continuous _ data interval, in the: blank_range (blankmg interval), 2 £ between the vertical blank interval 302 and the parallel blank interval 30 as a transmission sound. - Ifnt, Kotian (4) at the end of the interval has a leading data (13 positions), which has several control bits, 21 "U in the data space after the control of the ship is the image data interval or the data island interval. Mother: _ data Both the interval and the data island interval start from a starting protection zone (four) beer _ sister view t in the end protection zone (10) ilingguardb_ starting miscellaneous ^ broken inner valley is a fixed bit pattern, can be used as a control interval and data The interval conversion is as shown in Fig. 3, and the sound data is transmitted between the data in the parallel blank interval 3〇6 and the vertical blank interval. In the traditional Η_structure, the sound can be transmitted from the image. ^(4) Providing the lion The method and method, the age-smoke HDM transmits the sound data of the image-free data. - Figure 4A shows a block diagram of a system embodiment for voice transmission using HDMI, and the HDMI transmission system 44 includes image signal generation in Figure 4A. The device 44, the image processor 442, the φ sonar processor 444, the helper transmitter 446, and the mode indicator 4 sen. The HDMI transmission system 44 receives the sound input signal 421 from the sound source 42 and the image The source (not shown) image input signal 423. The sound processor 444 receives and processes the sound input signal 42, such as digitizing, encoding, and compressing the sound input date 彳a 421. The sound processor then inputs, the sound data 445 to HDMI transmitter. The mode indicator 448 can be used in actual applications to detect whether the input signal has only the sound signal 421, or the input signal has the sound signal 421 and the image signal milk. The image processing 2 receives the external image input signal 423 or the self-generated image signal 441 output by the image signal generator 44 according to the mode indicator 448. The image processor 442 processes the image signal, for example, digitizing the image signal, Encoding, and compression. Image processing H 442 then outputs image dragon 443 to 传送^ transmitter 446.

0758-A30905TWF 9 1288563 The self-generated image signal 441 may be a static image of any image, such as a logo or trademark. The HDMI transmitter 446 receives the sound data 445 and the image data 443, and outputs the HDMI signal 447 to the HDMI receiver 46 via the hdm signal cable. Figure 4B is a block diagram showing an embodiment of a system for voice transmission using HDMI. The HDMI transmission system 48 includes an image processor 482, a sound processor 484, and an HDMI transmitter 486. HDMI system 44 receives sound input signal 421 from sound source 42 and image input signal 423 from an image source (not shown). The sound processor 484 receives and processes the sound input # number 421 ' and then outputs the sound material 485 to the HDMI transmitter 486. The HDMI switch 486 includes a mode indicator 4862, which can be a scratchpad or control signal. The mode indicator 4862 reflects whether there is only the sound input signal 421 or the sound input signal 421 and the image input signal 423 at the input end of the HDMI system. The image processor 482 receives and processes the image input 423' and outputs the image data 483 to the HDMI transmitter 486. If the input of the HDMI system includes an audio signal and an image signal, the HDMI transmitter 486 receives the sound data 485 and the image data 483, and outputs the HDMI signal 487 to the HDMI receiving state 46 through the HDMI signal cable. Suppose the input of the HDMI system contains only the sound signal, in the book μ; [the mode indicator 4862 of the transmitter 486 sets the flag, and the HDMI transmitter 486 outputs the HDMI signal 487 to the HDMI receiver 46 based on the sound data 485. When this flag is set, the leading information of the control interval will indicate that the interval after the control interval is the data island interval, and each control interval is arranged as the data island interval. In other words, the vertical blank interval or the parallel blank interval is extended, and the image data interval is omitted in the image frame. In some embodiments, since no video signal is played, the flag can also signal the HDMI receiver 46 to turn off the monitor, thereby conserving power. The present invention has been described above with reference to the preferred embodiments thereof, and is not intended to limit the scope of the present invention, which may be modified and modified without departing from the spirit and scope of the invention. Therefore, the scope of the invention is defined by the scope of the appended claims. [Simple Description] 0758-A30905TWF 10 1288563 Figure 1 shows the architecture of a traditional HDMI system with HDCP protection architecture. Figure 2 shows a block diagram of HDMI. Figure 3 shows an example of the TMDS interval in the 720x480p video frame. Figure 4A is a block diagram showing an embodiment of a system for voice transmission using HDMI. Figure 4B is a block diagram showing an embodiment of a system for voice transmission using HDMI.

[Main component symbol description] 12~DVD player; 14~ monitor; 18~ sound source; 124~HDMI transmitter chip; 123b~ decoded sound data; 143a~ image data; 161~ image data; 1242~HDCP encryption unit 20~HDMI source; 22~transmitter; 211~image data; 230···232~ data channel; 234~DDC; 251~image data; 30~image frame; 306~parallel blank interval; 308~main animation 44~MHDMI transmission system; 421~sound input signal; 13~HDMI signal browsing line; 16~image source; 122~MPEG decoder chip; 123a~decoded image data; 142~HDMI receiver; 143b~sound data ; 181 ~ sound data; 1422 ~ HDCP decryption unit; 21 ~ HDMI target; 24 ~ receiver; 212 ~ sound data; 233 ~ TMDS clock channel; 235 ~ CEC connection; 252 ~ sound data; 302 ~ vertical blank interval ; 304 ~ active column; 42 ~ sound source; 46 ~ HDMI receiver; 423 ~ image input signal;

0758-A30905TWF 11 1288563 440~image signal generator; 442~image processor; 444~sound processor; 446~HDMI transmitter; 448~mode indicator; 482~image processor; 484~sound processor; 486~ HDMI transmitter; 4862~ mode indicator. 441~ self-image signal; 443~image data; 445~sound data; 447~HDMI signal; 48~HDMI transmitter system; 483~image data; 485~sound data; 487~HDMI signal;

0758-A30905TWF 12

Claims (1)

  1. .号_纤_& ___| Pro_: 9610, patent application scope: 1. A transmission method, using a High Definition Multimedia Interface (HDMI) to transmit a voice data, the method includes: receiving An input signal; if the input signal has no image signal, a self-generated image letter "5 tiger is generated, and an information island interval using an HDMI signal (n〇te ·· does not appear before) is transmitted The sound signal is input to the signal, and the self-generated image signal is transmitted by using the image data interval of the HDMI signal. ^2. The transfer method of claim 1, wherein the self-made shirt is like a js 7 tiger. The transmission method described in claim 1, wherein the data island interval is a data island interval in a parallel blank interval or a vertical blank interval. Λ 4. A method of transmitting, using a High Defuntum Multimedia Interface (HDMI) material, the method comprising: receiving an input signal; if the input signal does not include an image signal, setting an input flag; Only the sound input flag is set, then after each control interval in the -mMi signal, 'arranged separately—data island interval; and 0758-A30905TWF1; (20070426) 13 1288563 U, two repairs (for) positive. The page I signal uses the data island section to transmit the transmission method in the sound signal of the input signal, wherein the second and the &# day wheel people flag are set, In the HDMi signal, the preamble at the end of the parent-control interval indicates that the interval after each control interval is the data island interval after the data system interval. In the parent 6. The transmission method as described in claim 4, further includes if the voice round flag is set, then the notification - the HDMI receives the image signal of the person's signal towel - the display enters 7· A high-quality multimedia interface (High (10) base (10) Muk dia dia interface, HDMI) transmission system, using a high-definition media interface (High Definition Multimedia, a sound data, the system includes a sound processor for Receiving and processing - inputting the sound data of the life; Μ - the image processor for receiving and processing the image signal in the input signal and the image generated by the image signal generator - a self-generated image: a transmission mode setting of a mode indicator For the sound input day ^*, the field selects the self-generated image signal, otherwise selects the second number in the input signal to generate an image data; the shirt image-image signal generator, when the mode indicator Set to only the sound input, the self-generated image signal is generated; the different type 0758-A30905TWF1; (20070426) 14
    1288563 ^ the mode indicator, when there is only a sound signal in the input signal, the transmission mode is set to only sound input; and 'an HDMI transmitter receives the sound data from the sound processor and from the image processor The image data is outputted by the HDMI signal, wherein the sound data is carried by the plurality of data island sections of the HDMI signal, and the plurality of image data sections carry the image data. 8. The HDMI transmission system of claim 7, wherein the self-generated image signal is a static image. 9. The HDMI transmission system of claim 7, wherein the HDMI transmitter transmits the sound data using the data island intervals in parallel blank areas or vertical blank areas in the HDMI signal. 10) A High Definition Multimedia Interface (HDMI) transmission system that transmits a sound data using a High Definition Multimedia Interface (HDMI), the system comprising: a sound processor for Receiving an audio signal in an input signal to generate the sound poor material, and an HDMI transmitter receiving the sound data of the sound processor and generating an HDMI signal for transmitting the sound data when a mode indicator When only the voice input flag is set, only the control interval and the data island interval are included in the HDMI signal, and the data island interval is used to carry the sound poor material, 0758-A30905TWF1; (20070426) 15 1288563 The HDMI transmitter includes : The mode indicator, if there is only a sound signal in the input signal, sets the voice input flag only. 11. The HDMI transmission system of claim 10, wherein when only the voice input flag is set, in the preamble at the end of each control interval in the HDMI signal, The interval not after the control interval is the poor island interval 'and is arranged as the data island interval after the control interval. 12. The HDMI transmission system according to claim 10, further comprising: if the only sound input flag is set, notifying an HDMI receiver that the display for playing the image data in the input data enters the province Electrical mode. A high-definition multimedia interface (HDMI) transmission and reception system transmits a sound data using a High Definition Multimedia Interface (HDMI), the system comprising: a transmitter comprising: a sound processor for receiving an audio signal in an input signal to generate the sound tribute, an image processor for receiving the image signal in the input signal, and a self-generated image signal generated by the image signal generator When the transmission mode of a mode indicator is set to only sound input, the self-generated image signal is selected, and the image signal in the input signal is selected to generate an image data; 0758-A30905TWF1; (20070426) 16 1288563
    a mode indicator, when there is only a sound signal in the input signal, setting a transmission mode to only sound input; * an image signal generator, when the transmission mode of the mode indicator is set to only sound input, An HDMI transmitter receives the sound data of the sound processor and the image data of the image processor, and generates an HDMI signal, wherein the sound data is transmitted using a data island interval in the HDMI signal, And transmitting the image and data using the image data interval in the HDMI signal; and receiving a HDMI signal by using a receiver. The HDMI transmission and reception system of claim 13, wherein the self-generated image signal generated by the image signal generator is a static image. 15. The HDMI transmission receiving system according to claim 13, wherein the HDMI transmitter transmits the sound data by using the data island intervals in the parallel blank interval or the vertical blank interval in the HDMI signal. 16. A High Definition Multimedia Interface (HDMI) transmission and reception system for transmitting a sound material using a High Definition Multimedia Interface (HDMI), comprising: a transmitter comprising: a sound a processor for receiving a sound signal in an input signal to generate the sound data; 0758-A30905TWF1; (20070426) 17 • 1288563
    曰修 (ip-t-feeding an hdmi transmitter, receiving the sound of the sound processor and generating an HDMI signal, when an audio input flag of a mode indicator is set, the HDMI signal There is only a control interval and a data island interval, and the sound data is transmitted using the data island interval; the HDMI transmitter includes: · the mode indicator, if only the sound signal is included in the input signal, the sound input flag is set And the receiver 'receives the HDMI signal from the transmitter. Π · The hdmi transmission and reception system described in claim 16 of the patent application, wherein when only the voice input flag is set, then in the HDMI 仏In the leading data at the end of each control interval in 唬 ((4)(10) him), the interval after the control interval is indicated as the data island interval, and after each control interval is arranged as the data island interval. W·如申巧专利范围第The hDM system described in the 16th item further includes notifying that the receiving state is to play the rounding into the power saving mode if the only sound standing at the λ ^ # 曰 rounding flag is set. The image data of the display 0758-A30905TWF1; (20070426) 18
TW094138256A 2004-12-10 2005-11-01 Method of audio data transmission and system thereof TWI288563B (en)

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